Role of electron-magnon interaction in non-Fermi liquid behavior of SrRuO 3

SrRuO is a popular material extensively used as a bottom electrode in various applications, however, a few problems which will certainly change the interface band structure and greatly alter the device's property are still not fully understood, such as the change of carrier types at a certain t...

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Bibliographic Details
Published in:Journal of physics. Condensed matter 2019-03, Vol.31 (12), p.125602
Main Authors: Dwivedi, G D, Sun, S J, Kuo, Y K, Chou, H
Format: Article
Language:English
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Summary:SrRuO is a popular material extensively used as a bottom electrode in various applications, however, a few problems which will certainly change the interface band structure and greatly alter the device's property are still not fully understood, such as the change of carrier types at a certain temperature and the quasiparticle scattering for non-Fermi liquid behavior below ferromagnetic transition temperature. In this study, magnetic, transport (electrical and thermal) properties and x-ray photoemission spectra have been used to understand the role of quasiparticle interactions in the SrRuO bulk system. At the Fermi level, the hybridization of Ru4dt   ↓  and O2p  bands form a typical two band system. In order to explain the problems as mentioned, our present work reveals that there must be an impurity band that couples with the bands around Fermi level and serves as a charge reservoir. In the present case, the impurity is attributed to the Ru vacancies. As a result, the conduction electrons scatter strongly with the Ru vacancies and couple with the Ru magnons to give rise to a dominant electron-magnon coupling that overwhelms the electron-phonon coupling in the temperature range of 90-150 K.
ISSN:0953-8984
1361-648X
DOI:10.1088/1361-648X/aafd0c